Objective To investigate whether the peri pheral administration of amitri ptyl ine and bupivacaine produces anti-hyperalgesic effect and to screen the neurotoxicological effect on sciatic nerve blockade in a rat model of neuropathic pain. Methods Twenty-four adult male SD rats [weighing (200 ± 20) g] were made the models of chronic constriction injury (CCI) and randomly divided into 3 groups (n=8) 5 days after operation: group A (amitriptyl ine), group B (bupivacaine) and group C (normal sal ine). 0.5 mL 0.5% amitriptyl ine, 0.5% bupivacaine or normal sal ine were given in group A, group B, and group C, respectively through implanted cannulas after 5, 7 and 9 days of CCI once a day for successive 3 days. The motor function was measured before administration and 1, 2, 4, 8, 12 and 24 hours after every administration. Mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) were measured before administration and 1, 3, 5 and 7 days after the third administration. The operated sciatic nerve samples were obtained for neuropathological examination under l ight microscope. Results Twenty-four CCI rats were all survival without infection, palsy and catheter fall ing off. Compared with group C, the rats of group A and group B both produced significant ambulation deficits after every administration (P lt; 0.05). The ambulation deficits lasted 2 hours (group B) and 8 hours (group A) respectively. But the ambulation deficits of CCI rats were all reversible. The MWT and TWL of group A 1 and 3 days after the third administration increased when compared with those before administration and 5 and 7 days after the third administration, and when compared with group B and group C (P lt; 0.05). There was no significant difference (P gt; 0.05) in l ight microscopic neuropathological examination among three groups. Epineurial tissue and endoneurium tissue integrity, tidy arrangement of fibers, less inflammatory cell and no marked degeneration of myel inated fibers were observed. Conclusion Repeated sciatic nerve blockade with 0.5% amitriptyl ine has peripheral anti-hyperalgesic effects on neuropathic pain of rats. No morphological evidence of neurotoxicity in the sciatic nerve of rats is observed in 0.5% amitriptyl ine.
【摘要】 目的 观察在不同剂量乙醇作用下大鼠下丘脑和脊髓神经细胞P物质的表达情况和扫描电子显微镜(SEM)下神经细胞的形态学变化,探讨乙醇作用下大鼠行为学改变的相关机制。 方法 通过福尔马林实验观察大鼠在不同剂量乙醇及时间作用下行为学的改变;采用免疫组织化学技术检测不同剂量乙醇作用下大鼠脊髓和下丘脑神经细胞中P物质的表达,通过扫描电子显微镜观察神经细胞的形态学变化。 结果 乙醇灌胃后0~2 h大鼠舔足次数有不同程度的变化,组间比较差异有统计学意义(Plt;0.05),灌胃2 h大鼠下丘脑和脊髓P物质表达程度与乙醇剂量有相关关系,扫描电子显微镜下各组大鼠的神经细胞形态学变化显著。 结论 急性乙醇中毒可引起大鼠对疼痛反应的变化,其程度与乙醇剂量和作用时间有关,大鼠下丘脑和脊髓神经细胞中P物质的表达强度与乙醇剂量和作用时间有关。【Abstract】 Objective To observe the expression of substance P(SP)in the hypothalamus and spinal cord nerve cells of rats with different concentrations of ethanol, and to observe the morphological changes of nerve cells by scanning electron microscopic(SEM) for elucidating the mechanism of ethological changes effected with ethanol. Methods Ethological changes were detected through the formalin test; SP expressions in the hypothalamus and the spinal cord were evaluated with immunohistochemistry technology, and the morphological changes of nerve cells were observed by SEM. Results The frequency of licking foot changed when the rats were gavaged with different concentrations of ethanol among zero to two hours, the difference between two groups was statistical signifcant (Plt;0.05). The expression level of SP and the morphological changes of nerve cells in hypothalamus and spinal cord had relationship with the ethanol concentration. Conclusions Acute alcoholism could cause pain dysfunction in rats. The frequency of licking foot of rats is correlated to the role of the time closely. The expression intensity of SP in the hypothalamus and the spinal cord nerve cells are correlated to the concentration of ethanol closely.
Mental rotation cognitive tasks based on motor imagery (MI) have excellent predictability for individual’s motor imagery ability. In order to explore the relationship between motor imagery and behavioral data, in this study, we asked 10 right-handed male subjects to participate in the experiments of mental rotation tasks based on corresponding body parts pictures, and we therefore obtained the behavioral effects according to their reaction time (RT) and accuracy (ACC). Later on, we performed Pearson correlation analysis between the behavioral data and the scores of the Movement Imagery Questionnaire-Revised(MIQ-R). For each subject, the results showed significant angular and body location effect in the process of mental rotation. For all subjects, the results showed that there were correlations between the behavioral data and the scores of MIQ-R. Subjects who needed the longer reaction time represented lower motor imagery abilities in the same test, and vice versa. This research laid the foundation for the further study on brain electrophysiology in the process of mental rotation based on MI.
Objective To summarize and analyze the clinical and video-EEG (VEEG) characteristics of adult sleep-related epilepsy, so as to provide evidence for clinical diagnosis, differential diagnosis and treatment. Methods The clinical data, routine EEG and long-term VEEG of 187 adult patients with sleep-related epilepsy treated in Department of Neurology, Xiangya Hospital, Central South University from January 2017 to December 2017 were retrospectively analyzed by χ2 test. Results Clinical manifestations: The duration of sleep-related epilepsy in 187 adults was concentrated in 1~10 years (101 cases, 54.01%); the frequency of seizures was mainly from several to dozens of times a year (99 cases, 52.94%); 119 cases (63.64%) had two or more types of seizures. Among the patients, 121 cases (39.29%) had focal origin, 152 cases (49.35%) had bilateral tonic clonus and 110 cases (58.82%) were treated with two or more drugs. EEG results: ① The detection rate of epileptiform discharges in routine EEG was 22.78%, and that in long-term video EEG was 80.43%. There was significant difference between the two methods (P< 0.01); ② Eighteen epileptiform discharges were monitored by routine EEG during interparoxysmal period and 111 epileptiform discharges were monitored by video EEG; and ③ Fifty-six epileptic events were monitored and all occurred in the process of long-term VEEG monitoring, 50 of them occurred in sleep (89.29%) and 6 in awake (10.71%); 45 cases (80.36%) were diagnosed as epileptic seizures, 9 cases (16.07%) were diagnosed as non-epileptic seizures, and 2 cases (3.57%) could not be determined. ④ The detection rate of epileptic discharges during sleep was higher than that during awake period in long-term VEEG monitoring (P< 0.01). The detection rate of epileptiform discharges in NREM stage I–II was the highest in sleep stage. Conclusion Sleep-related epilepsy in adults has certain clinical features and EEG manifestations. Compared with conventional EEG, long-term video-EEG can improve the detection rate of epileptiform discharges, provide diagnostic basis for the qualitative analysis of sleep-related seizures, and reflect the relationship between epileptiform discharges and sleep, and provide basis for the clinical diagnosis and treatment of sleep-related epilepsy in adults.
Cognitive reappraisal is an important strategy for emotion regulation. Studies show that even healthy people may not be able to implement this strategy successfully, but the underlying neural mechanism behind the behavioral observation of success or failure of reappraisal is unclear. In this paper, 28 healthy college students participated in an experiment of emotional regulation with the cognitive reappraisal strategy. They were asked to complete the cognitive psychological questionnaires before the experiment. Their behavioral scores and scalp electroencephalogram (EEG) signals were collected simultaneously during the experiment. We divided all the subjects into two groups, according to the statistical test of valence scores. Then we analyzed their questionnaires, early event-related potential (ERP) components N200, P200, and late positive potential (LPP), and calculated the correlation between the valence score and the amplitude of LPP. The results showed that, in both groups, compared with negative-watching, the reappraisal induced larger N200 and P200 components and there were two modulation patterns (“increase” and “decrease”) of the reappraisal effect on the amplitude of early LPP (300−1 000 ms after stimulus onset). Moreover, correlation analysis showed that significant positive correlation between two differences in the successful group, i.e., the greater difference in the valence scoresin between reappraisal and negative-watching, the greater difference in the amplitude of early LPP between reappraisal and negative-watching; but no such effect was found in the failure group. These results indicated that, whether reappraisal was successful or not, no significant effect on early ERP components was found; and there were different patterns of the reappraisal effect on early LPP. The difference between successful and failure groups was mainly reflected in early LPP, that is, the EEG characteristics and behavioral scores of successful group were significantly positively correlated. Furthermore, the small sample analysis showed that this correlation only existed in the pattern of "increase". In the future, more research of this modulation mode is necessary in order to find more stable EEG characteristics under successful cognitive reappraisal in emotion regulation.